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University of Arkansas, Fayetteville University of Arkansas, Fayetteville
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Technical Reports Arkansas Water Resources Center
9-1-1985
Institutional Arrangements and Financing Alternatives for State Institutional Arrangements and Financing Alternatives for State
and Local Water Programs and Local Water Programs
Joseph A. Ziegler University of Arkansas, Fayetteville
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Citation Citation Ziegler, Joseph A.. 1985. Institutional Arrangements and Financing Alternatives for State and Local Water Programs. Arkansas Water Resources Center, Fayetteville, AR. PUB 115. 70 https://scholarworks.uark.edu/awrctr/238
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INSTITUTIONAL ARRANGEMENTS AND FINANCING ALTERNATIVES FOR STATE AND
LOCAL WATER PROGRAMS
Joseph A. Ziegler Department of Economics
University of Arkansas Fayetteville, Arkansas 72701
Publication No. 115 September, 1985
Technical Completion Report Research Project G-893-06
Arkansas Water Resources Research Center University of Arkansas
Fayetteville, Arkansas 72701
Arkansas W ater Resources Research Center
Prepared forUnited States Department of the Interior
AWRRC
INSTITUTIONAL ARRANGEMENTS AND FINANCING ALTERNATIVES FOR STATE AND
LOCAL WATER PROGRAMS
Joseph A. Ziegler Department of Economics University of Arkansas Fayettevil le, AR 72701
Research Project Technical Completion Report
Project G-893-06
The research on which this report is based was financed in part by the United States Department of the In te r io r as authorized by the Water Research and Development Act of 1978, (P.L. 95-467).
Arkansas Water Resources Research Center University of Arkansas
223 Ozark HallFayettevi l le, Arkansas 72701
Publication No. 115
September, 1985
Contents of th is publication do not necessarily re f lec t the views and policies of the U.S. Department of the In te r io r , nor does mention of trade names or commercial products constitute the i r endorsement or recommendation for use by the U.S. Government.The University of Arkansas, in compliance with federal and state laws and regulations governing aff irmative action and nondiscrimination, does not discriminate in the recruitment, admission and employment of students, faculty and s ta f f in the operation of any of i t s educational programs and ac t iv i t ie s as defined by law. Accordingly, nothing in this publication should be viewed as d i rec t ly or ind i rec t ly expressing any l im i ta t io n , specif ication or discrimination as to race, re l ig ion , color or national or ig in ; or to handicap, age, sex, or status as a d is abled Vietnam-era veteran, except as provided by law. Inquiries concerning th is policy may be directed to the Affi rmative Action Off icer.
A B S T R A C T
INSTITUTIONAL ARRANGEMENTS AND FINANCING ALTERNATIVES FOR STATE AND LOCAL WATER PROGRAMS
This study analyzes a lte rna tive in s titu t io n a l arrangements and
financing a lte rna tives fo r water projects at the state and local le v
els with p a rticu la r emphasis on Arkansas. Because most water pro
jec ts are financed with debt i t concentrates on a lte rna tives which
can reduce the cost o f debt and/or resu lt in more e f f ic ie n t use of
ex is ting f a c i l i t ie s . Specific state options considered include
grants, loans, revolving funds, debt guarantee, bond insurance, bond
bank, s ta tu to ry and regulatory reform of water laws and w a te r-re la t
ed in s t itu t io n s , and planning and technical assistance. Specific
local options include use o f taxes and bonds including creative f i
nancing, user fees, leasing, p r iv it iz a t io n , and fina nc ia l planning.
Joseph A. Z ieg ler
Completion Report to the U.S. Department o f the In te r io r , Washington, D.C., September, 1985.
Keywords - - Financing/Cost Sharing/Water Costs/Economic E ffic ie n cy / Bond Issues/User Charges
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TABLE OF CONTENTS
Abstract ...................................................................................................
L is t of Tables ........................................................................................
Acknowledgements ....................................................................................
Introduction ...........................................................................................
A. Purpose and Objectives .....................................................
B. Related Research or A c tiv it ie s ......................................
Methods and Procedures .................................. ..................................
Principal Findings and Their Significance ..................................
General Framework of Analysis ..................................................Types of Debt .....................................................................Bond Rating ....................................................................Nature of Debt .....................................................................Economic Base ....................................................................Financial Policies .............................................................Administrative Policies .................................................Marketing Bonds .................................................................
State Policy Options .................................................................Grant and Loan Programs ..................................................Credit Enhancements .........................................................Planning and Technical Assistance ...............................Statuatory and Regulatory Reform ..................................Current State A c tiv it ie s ..................................................
Local Policy Options .................................................................Bond Financing .....................................................................Tax Financing .....................................................................User Fees ............................................................................Leasing and Contracts .....................................................Financial Planning .............................................................
Conclusions ...........................................................................................
L ite ra tu re Cited ............................................................................ . .
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121314 16 16 18 19 23 26 27 3136374041 49 51
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LIST OF TABLES
Table 1
Table 2
Table 3
Table 4
Page
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- Yields on New Issues of 20-YearMunicipal Bonds...............................‘ ...............................
- The Economic Value of Saving BasisPoints .................................................................................
- State Aid to Local Governments fo rWater Development .............................................................
- State Credit Assistance A c tiv it ie s ...........................
i i i
ACKNOWLEDGEMENTS
This report would not have been possible without the coopera
tion of many individuals in Arkansas and throughout the country. I
would lik e to acknowledge in pa rticu la r the cooperation of the
Arkansas Soil and Water Commission, Arkansas Industria l Development
Commission, Arkansas Department of Pollu tion Control and Ecology,
Planning and Development D is tr ic ts of Arkansas, Stephens, Inc .,
United States Geological Survey, and the In s titu te fo r Water
Resources of the United States Army Corps of Engineers. In addi
tio n I would lik e to thank those ind iv idua ls at the state water
resource agencies who provided information on financing a lte r
natives and in s titu t io n a l arrangements in other states. F ina lly ,
the cooperation of the College of Business Administration,
University of Arkansas and the Water Resources Research Center was
greatly appreciated.
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INTRODUCTION
The administration of President Reagan has proposed a Water
Resources Policy which places greater respons ib i l i t ies on non-
federal sources of financing to pay an increased share of the costs
of project studies, construction, and operation and maintenance.
In October 1983 Major John Wall of the U.S. Army Corps of Engineers
proposed 100 percent non-federal financing of projects with f u l l y
vendible outputs (e.g., hydropower, municipal and industr ia l water
supply), 50 percent of projects for recreation, and 35 percent for
i r r ig a t io n and flood control (Hydata, March 1984). The policy has
been modified since October and might be considered f lex ib le in
l ig h t of the Congressional deadlock. However, the intent of Presi
dent Reagan's administration to increase cost-sharing of non-federal
sources of f inancing is clear.
Although the policy of increased cost-sharing has been j u s t i
f ied on various grounds, i t leaves unanswered the question of
spec i f ica l ly how state and local governments can meet the ir addi
t ional respons ib i l i t ies . H is to r ica l ly , the Federal government has
financed substantial shares of state and local water project costs.
Increased cost-sharing w i l l impact not only the number and kinds of
such projects undertaken, but also decisions re lat ing to the more
e f f ic ie n t use of existing f a c i l i t i e s and resources. I t places an
additional f inancial burden on state and local governments and
necessitates development of appropriate in s t i tu t ion a l arrangements
and f inancial al ternatives. Some states have already created new
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water development programs in response to the continuing decline in
federally funded water development projects. In Florida, for exam
ple, Water Management D is tr ic ts are authorized to levy ad valorem
taxes in order to finance local water projects. Local water supply
capital funds have been created from a real estate transfer tax
aimed at f inancing newly created demand for water resources ser
vices by incoming residents. Montana financed a water development
fund created in 1981 from mineral royalt ies and portions of a coal
severance tax. Pennsylvania, and more recently Arkansas, have sold
bonds to establish similar funds. Approximately t h i r t y states now
have programs ranging from grants and loans to special taxes and
user fees to support water development projects.
The a b i l i t y of local governments to raise revenue is more l im
ited than the a b i l i t y of state governments. Within the state of
Arkansas constitut ional provisions l im i t revenue raising capabil i ty
of local governments more so than in most other states. Additional
constraints are faced by small and rural areas because of low tax
bases. Given these constraints the a b i l i t y of local areas to pro
vide needed water projects is curtailed severely under the proposed
policy of increased cost-sharing. The provision of these projects
w i l l depend on whether existing alternatives can be used more e f f i
c ient ly and appropriate new arrangements and alternatives can be
found.
A. Purpose and Objectives
The purpose of th is study is to analyze al ternative in s t i tu -
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t ional arrangements and financing al ternatives for water projects
with in the state of Arkansas. The specif ic objectives of the pro
posed study are to:
a. Iden t i fy existing in s t i tu t io n a l arrangements and financing
al ternat ives for water projects within the state of Arkansas.
b. Ident i fy present and proposed in s t i tu t io n a l arrangements and
financing al ternatives for water projects in other states.
c. Evaluate these arrangements and alternatives with respect to
the i r e f f ic iency and equity in funding water projects.
d. Ident i fy and evaluate other arrangements and alternatives which
are neither used presently nor proposed by other states, but
which might be applied to water projects.
B. Related Research or A c t iv i t ies
This study iden t i f ies existing in s t i tu t ion a l arrangements and
financing capab i l i t ies of Arkansas' state and local governments as
well as other arrangements and alternatives to provide water pro
jec ts . I t analyzes them with respect to economic ef f ic iency and
equity and investigates the advantages of the various al ternat ives.
Ideally, e f f ic iency and equity are best attained when beneficiaries
of the specif ic project pay i t s costs. While i t is less d i f f i c u l t
to iden t i fy beneficiar ies for some types of water projects which
generate marketable water resources benefits (e.g., municipal, ag r i
cu l tu ra l , and industr ia l water supply and waste treatment), i t is
more d i f f i c u l t to iden t i fy beneficiaries of projects which generate
benefits which are not easily marketed (e.g., f ish and w i ld l i f e
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enhancement, flood con tro l, and area redevelopment).
This p ro ject compares and constrasts the e ffic ie n cy and equity
of various arrangements and a lte rna tives . I t includes an analysis
of a lte rna tives to defer major cap ita l investments, e .g ., reduc
tions in demand through conservation, load management techniques,
and improved sequencing of cap ita l p ro jects. In addition, rate
structures and creative bond financing a lte rna tives are analyzed.
The la t te r include the establishment of a bond bank or the use of
bonds such as tender-option bonds, zero-coupon bonds, f lo a tin g -
coupon bonds, e tc ., in place of the more tra d it io n a l se ria l bonds.
These re la t iv e ly new bond financing a lte rna tives are designed p r i
m arily to enhance the m arke tab ility of bonds, a facto r which is
p a rt ic u la r ly important fo r re la t iv e ly small local areas which often
have d i f f ic u l t y f lo a tin g th e ir bonds. A lternatives are not lim ited
to those mentioned previously; others are id e n tifie d w ith in the
course of study and analyzed with respect to e ffic ie ncy and equity.
Relative advantages of each are also noted.
METHODS AND PROCEDURES
The research procedures which were u til iz e d in f u l f i l l i n g the
objectives of th is study include:
a. Existing sources of published information were examined to deter
mine present in s titu t io n a l arrangements and financing a lte rna
tives fo r water p ro jects. In addition , agencies and organiza
tions with s ig n ific a n t re sp o n s ib ilitie s in water were contacted.
These included Arkansas Soil and Water Conservation Commission,
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Arkansas Waterways Commission, Arkansas Department of Pollution
Control and Ecology, Arkansas Geological Commission, Arkansas
Public Service Commission, Arkansas Department of Local Services
Water Resources Research Center, and the U.S. Army Corps of Engi
neers. The Governor's Off ice, Arkansas Legis la t ive Council, and
other agencies were contacted about information regarding e x is t
ing f inancing a l te rna t ives.
b. Information regarding ex is t ing and proposed in s t i tu t io n a l ar
rangements and financing a l ternat ives in other states were
gathered from published information as well as surveys of appro
p r ia te state agencies. These agencies were id e n t i f ie d with the
help of Arkansas Water Resources Research Center.
c. Exist ing and proposed arrangements and a l ternat ives were ana
lyzed with respect to economic e f f ic iency and equity . Economic
e f f ic ie ncy requires that the do l la r value of benefi ts to the
economy f lowing from the pro ject be greater than the value of
goods foregone by ind iv iduals in order to construct and operate
the pro ject. A lternat ives were analyzed with respect to the
extent they were l i k e l y to resu l t in e f f i c ie n t funding of pro
jec ts . This analysis included consideration of ant ic ipated
size, composition, and timing of various water projects since
these factors can a f fec t e f f ic iency .
A lternat ives also were analyzed with respect to equity,
i . e . , the extent to which the costs of the projects are borne
by both present and future benef ic ia r ies .
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d. Addit ional arrangements and alternatives not ident i f ied in (a)
and (b) were determined from a review of published l i te ra tu re
and in consultation with experts in water resources management
and state and local f inancing. Emphasis was placed on iden
t i f y in g arrangements and alternatives for capital improvement
projects in addition to mechanisms which promote more e f f ic ie n t
use of existing resources.
PRINCIPLE FINDINGS AND SIGNIFICANCE
General Framework of Analysis
Generally speaking, water and water-related projects are f i
nanced on ei ther a pay-as-you go or pay-as-you use basis. Pay-as-
you go financing means that the costs of the project are paid as
the project is completed even though i t may have a useful l i f e of
30 years. I t is equivalent to paying for a house on a cash basis.
Pay-as-you use financing, on the other hand, means that costs are
paid over the l i f e of the project. I t is equivalent to borrowing
money and paying o f f the loan during the expected l i fe t im e of the
project.
Pay-as-you use, or debt finance, is preferred to pay-as-you
use financing of water projects for several d is t inc t reasons. The
use of debt permits those who w i l l benefit from water projects to
pay for them, f a c i l i t a t in g the acquisit ion of more capital than
would be possible out of current revenue alone. Also, to the extent
that expenditure needs vary annually, debt financing permits the
impact on government budgets to be spread out more evenly by sche-
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duling repayments so that they do not f luctuate rad ica l ly from year
to year.
Local governments in Arkansas generally shy away from issuing
debt to finance th e i r services. This s ituat ion re f lec ts const itu
t ional and statuatory l im i ta t ion (including low in terest rate c e i l
ings on certain types of bonded indebtedness and millage re s t r i c
t ions) , but is might also re f le c t conventional wisdom with respect
to what is regarded as sound f inancial management, i . e . , i f borrow
ing is kept to a minimum i t holds down interest costs, avoids leav
ing debt service costs to those l i v in g in the area in future years,
and enhances the bond rat ing of the community in the eyes of the
investors.
In many, i f not most cases, however, debt f inancing of capital
improvements is f u l l y compatible with conservative management prac
t ices. The benefits associated with the construction or upgrading
of a local water pro ject, for example, w i l l accrue over a long
period of time. In fairness to the taxpayers, the to ta l cost of
the project should not be charged to those who happen to l i ve in
the area during the short time during which the project is being
financed. The issuance of the debt permits the cost of the water
project to be shared with those who w i l l be using i t in future
years.
This report is based on the premise that issuance of debt is
the most appropriate method to finance long term water projects and
that state and local governments would prefer to avoid additional
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f inancing costs completely or reduce them. Given this premise, the
financing problem is seen as one that either reduces the cost of debt
and/or results in more e f f ic ie n t use of existing f a c i l i t i e s . As we
shall see la te r these are not mutually exclusive points. Looking
at the financing and ins t i tu t iona l alternatives from th is perspec-
t ive , however, makes a very complex problem managable. In the re
mainder of th is section we w i l l examine the main factors that affect
the cost of the debt issued by state and local governments. This
understanding is necessary in order to evaluate the policy options
of state and local governments. These options are the subject mat
ter of the fol lowing two sections.
Types of Debt. Debt is issued by the state and local govern
ments in the form of bonds. The two general types of bonds issued
are general obligation and revenue bonds. These bonds d i f fe r p r i
marily in what is pledged as security for repayment. The primary
security for general obligation bonds is the f u l l fa i th and credit
of the issuing government. This includes the ir a b i l i t ie s to tax as
well as charge rates for the output of the project which is financed
with the debt. H is to r ica l ly , th is has been the trad it ional method
of financing small municipally-owned water systems throughout the
United States. The primary security for revenue bonds is the stream
of payments from the output of the water project financed with the
proceeds of the bond.
In addition to general obligation and revenue bonds there has
been increased reference in recent years to zero-coupon bonds,
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stepped-coupon bonds, tender-option bonds and so on. These bonds
are rea l ly specif ic types of either general obligation or revenue
bonds that are meant to appeal to a d ivers i f ied market of potential
bond buyers. They are generally lumped under the term "creative
f inance" and w i l l be discussed more extensively la te r .
The two primary factors that influence the cost of a bond are
the bond rat ing and how the bond is marketed. I t is ins truct ive to
examine how each of these factors are determined and how they
affect the cost of a debt issue.
Bond Rating. A bond rat ing is an independent assessment of
the creditworthiness of a proposed bond issue. I t re f lec ts how the
marketplace perceives the r isk of default associated with a par
t i c u la r issue. Bonds are rated by two major agencies, i . e . , Moody's
Investors Service, Inc. and Standard and Poors Corporation. Not a l l
bonds are rated, pa r t icu la r ly smaller issues, but bonds that are
rated appeal to a wider national market. Because of the large num
ber of bonds issued each year, investors re ly on bond ratings to
provide information about the creditworthiness of a part icu lar
issue. Then, too, some large investors in bonds, l ike retirement
funds, cannot purchase bonds which have not been rated investment
grade.
Before invest igat ing the complex process by which bonds are
rated, le t us see how bond ratings affect bond yields and how these
in turn af fec t the cost of the bond. Investment grade bonds are
rated as fol lows: AAA-this is the highest rat ing and suggests that
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the capacity of the issuing agency to pay in te rest and principa l is
extremely strong; AA-capacity to pay in te res t and princ ipa l is very
strong; A-capacity to pay is strong but susceptible to a change in
economic conditions; and f in a l ly BBB (Standard and Poors) or BAA
(Moody' s)-adequate capacity but even more susceptiable to changing
economic conditions.
Table 1 shows how the bond ra ting affects the y ie ld . Note
that higher bond ratings mean lower y ie lds . In 1981, fo r example,
TABLE 1
Yields on New Issues of 20-Year Municipal Bonds
Bond RatingYear and Type of Issue AAA AA A BAA
Revenue bond 1978 5.67 6.00 6.24 6.331979 6.04 6.42 6.47 6.621980 7.72 8.22 8.38 ★1981 10.67 11.25 11.86 11.93
General ob ligation 1978 5.52 5.69 5.92 6.171979 6.02 6.05 6.27 6.531980 7.56 7.78 7.92 8.021981 10.67 10.93 10.97 11.47
*Not s u ff ic ie n t number of issues fo r source to compute a meaningful average.
Source: Smith, (1984), p. 61.
a m un ic ipa lity which issued an AAA revenue bond paid 58 basis points
less to borrow a given amount of money than one that issued an AA
rated bond (a basis point is equal to .01 of a percent). Although
th is difference may not seem lik e much because i t is only a l i t t l e
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more than one-half percent difference, i t turns out to be a s ign i
f ican t difference in cost to the local government which must extend
repayment over a long period of time.
This point is i l lus t ra ted in Table 2 which show the economic
value of saving basis points in terms of dollars per one thousand
TABLE 2
The Economic Value of Saving Basis Points (Dollars per $1,000 Par Value)
Maturit yBasis Points*
10 40 70
10 6.71/5.65 26.84/22.60 46.87/39.5515 8.56/6.81 34.23/27.24 59.92/47.6820 9.82/7.47 39.27/29.88 68.73/52.2925 10.67/7.84 42.70/31.37 74.72/54.9030 11.26/8.06 45.03/32.22 78.80/56.39
*Entry above and below " / " indicates savings per $1,000 par value of bond at 8 percent and 12 percent market interest rates, respectively.
Source: Smith, (1984), p. 59.
dollars par value. The values in th is table can be interpreted in
the following way: a savings of 40 basis points on a 30 year bond
enables an issuer to raise an additional 45.03 per $1,000 par value
of i t s bonds at a prevai l ing in terest rate of 8 percent. This means
that in th is situat ion the issuer would raise an additional $45,030
on a $1,000,000 par value bond. In other words, i t would reduce
i t s borrowing costs by 4.5 percent of the par value of the bond i f
i t could save 40 basis points.
Of course, many other factors besides bond rat ing influence
11
y ie ld and, hence, bond cost, but i t has been shown that bond rating
does affect y ie ld . These other factors w i l l be investigated la te r
in th is section but le t us f i r s t examine how bond ratings are deter
mined. As we shall see many of the factors which influence bond
rat ing are controlled by state and local government and, hence, rep
resent policy options in lowering the cost of debt to these govern
ments .
Standard and Poors and Moodys do not state e x p l i c i t l y how they
arr ive at rat ing for a part icu lar issue. Their c r i t e r ia are general
and, therefore, so w i l l be our discussion of the rating process.
Much of the material that fol lows is derived from Lamb and Rappa-
port (1980).
Rating of bonds involves analyzing the fol lowing questions:
1. What is the nature of the debt, i . e . , what are the provi
sions of repayment and protection afforded by the re la t ive
posit ions of obligations in event of bankruptcy or re-
organi zation?
2. What is the economic base of the ju r isd ic t ion?
3. What are the f inancial polic ies of the issuing government?
4. What are the administrative policies of the issuing govern
ment?
Nature of Debt . An analysis of the nature of debt involves an
examination of debt policy (uses, purposes, and type of debt ins tru
ment, debt structures), plans for debt retirement (including the
re la t ion between the rate of i t s retirement and i t s purpose), debt
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burden (gross and net debt, including the degree of overlapping
debt, debt h istory and trend, including the community's intent to
refund instead of re t i re i t s maturing bonds and/or fund operating
de f ic i ts by issuing debt), and f i n a l l y prospective borrowing (autho
rized but unissued debt as well as the future debt needs of the com
munity issuing the debt). Generally, although a l l factors are im
portant in determining a bond rat ing, the closer debt structure is
to the useful l i f e of the asset financed with debt and the less
l i k e ly future debt w i l l be issued that would impair repayment of
existing debt, the higher the bond rat ing is l i k e ly to be.
Economic Base. According to Standard and Poors the most im
portant aspects of a community's economic base which contribute to
higher ratings are higher income levels and growth re la t ive to the
region and nation, d ivers i f ied employment structure, higher educa
t ional levels, higher proportion of population in working years
(18-65), higher rates of new construction a c t iv i t y , and f i n a l l y
more more maintained and younger housing stock.
The economic base is an important element in determining a
bond rat ing because i t helps assess a community's a b i l i t y to pay
i t s debt obligations. However, a community with a strong economic
base doesn't necessarily receive a high bond rat ing. What is im
portant here is the strength of the economic base re la t ive to the
nature of debt. In th is respect the ra t io of debt to assessed pro
perty values is used often to assess a community's a b i l i t y to pay
i t s debt. Generally, a t t rac t ive communities from the standpoint of
13
public services and tax rates have high property tax assessments.
Therefore, communities with a low ra t io of debt to property values
generally receive higher bond ratings because they possess a favor
able combination of low future tax obligations to pay o f f the ir
debt re la t ive to a high tax base.
Financial P o l ic ies. Financial policies of communities are
analyzed with respect to the fol lowing four questions (Smith, 1984)
1. How sensitive is the revenue structure to future changes
in economic conditions?
2. Have revenue and expenditures been in balance over the
years?
3. How much reliance is placed on federal or state aid?
4. Are revenue sources s u f f ic ie n t ly diversif ied?
Generally, higher bond ratings are associated with community's that
have d ivers i f ied revenue structures that are re la t ive ly insensit ive
to economic downturns. Also, rel iance on intergovernmental aid is
viewed as a potential l i a b i l i t y because i t is not controlled by the
issuing community and is more subject to unpredictable change.
Because revenue bonds are paid o f f from the proceeds of the
project that they finance, the ir bond rating is based on additional
information generally contained in a f e a s ib i l i t y report which is
included in the prospectus. Bond rat ing agencies w i l l examine the
estimated cost of the project, the nature of the technology used in
the project, and the f inancial assumptions used, including the
assumed borrowing cost, estimated cost of service for the project,
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forecasted demand for the project output re la t ive to h is tor ica l
demand, and the effect of price change on the demand for project
output. They w i l l examine such questions as the fol lowing: is the
cost of the project reasonable re la t ive to s im i lar projects being
financed, how much of the cost is under contract, what is the size
of the contingency and reserve funds to cover unanticipated costs,
is the assumed interest rate too low re la t ive to market conditions,
what ef fect w i l l a change in in terest rate have on the cost of the
project output, and how w i l l changes in project output pricing
affect demand for output? This la t te r question is very important
for water projects in l ig h t of what happened to the demand for
energy during the preceding decade. In the early 1970's demand for
e le c t r i c i t y was thought to be ine las t ic , that is , re la t iv e ly insen
s i t ive to price changes. Experience has shown, however, that while
e le c t r i c i t y demand is ine last ic over the short term i t is much more
e last ic over the long term. This is a pa r t icu la r ly important point
for water projects since most studies show water demand to be re la
t iv e ly ine las t ic . However, the price of water has not been subject
to the rapid increases that the price of e le c t r i c i t y was in the
previous decade. There is reason to expect that over the long term,
water demand may be more e last ic than current ly estimated, part icu
la r ly i f a water project necessitates rais ing prices in response to
project costs. I f water demand is e las t ic in the long term, raising
prices w i l l lower revenue collected and, thus, imperial the a b i l i t y
of the community to pay o f f i t s debt.
15
Admini s t ra t ive P o l ic ies . Sound administrat ive pol ic ies are
those that resu l t in a f inanc ia l plan which c lea r ly states the eco
nomic condit ion of the community and how i t plans to r e t i r e i t s
debt. Lack of such planning usually results in lower bond ratings
because of suspected f inanc ia l problems that may be masked by a
poor plan. As we shall see in a la te r section, a sound f inancia l
plan not only helps to at ta in higher bond rat ings but also is a
c r i t i c a l step in assessing financing a l ternat ives.
Marketing Bonds. One important consideration in marketing
bonds is the state of the economy at the time the bond is issued.
Economic conditions influence the bond market in two ways (Smith,
1984). F i r s t , economic downturns resu l t in wider d i f fe re n t ia ls
between y ie ld on U. S. government bonds and r is k ie r bonds, and up
turns resu l t in narrower d i f fe re n t ia ls . Second, apart from these
business cycle ef fects , y ie lds on municipal bonds re la t ive to U. S.
bonds increase as overall in terest rates increase. The reason for
these two re lat ions is that economic downturns and high interest
rates make i t more d i f f i c u l t for munic ipal i t ies to pay o f f the ir
debt in the face of competing f inancia l obligations (Yawitz, 1978).
Studies of municipal in terest rates indicate that lower yields
can be expected when the economy is growing rap id ly and in f la t io n
rate is low than when the economy is growing slowly and in f la t io n
rate is high (Smith, 1984). Between 1955 and 1982, 90 percent of
the var iat ion in municipal bond yie lds can be explained by economic
conditions and the in terest rate. Obviously prudent f inancial plan-
16
ning which includes both an assessment of expected revenue needs
re la t ive to project outlays and an analysis of timing can result in
substantial savings. Many local governments do not have the exper
t ise to plan properly fo r the orderly and timely issue of debt. In
th is respect, states can provide technical assistance to help local
governments. This is a topic which w i l l be dealt with in greater
detail in the next section.
Another source of help to local governments is the underwri
ters. Investment bankers and commercial banks act as underwriters
to bond issues. That is , they generally help the issuer to sell
i t s bonds by designing financing plans and matching buyers with
sel lers. Underwriters purchase the bonds from the issuer and re
sel l them on the open market. In th is sense the underwriter is a
middleman who provides valuable services to the issuing government.
Underwriters make the ir money by resell ing the bonds at a higher
price than they paid the issuer for them. Because state and local
governments usually do not issue bonds on a regular basis they can
not market them as e f fec t ive ly as underwriters. Hence, for most
state and local governments i t is unlikely they could sell the ir
bonds at the price underwriters can.
The difference between the price the underwriter pays fo r bonds
and the price i t sel ls the bonds is known as the spread. The spread
is influenced by how large the bond issue is , the qual i ty of the
bond, number of underwriters bidding on the bond, and on the type
of bond, i .e , whether revenue or general obligation (Smith, 1984).
17
Several generalizations can be made about the relationship between
spread and the factors mentioned above. F i rs t , spread increases
less than porportionately to issue size. In other words, there are
economies of scale associated with the size of bond issues. Second,
the spread on revenue bonds tends to be s l ig h t ly greater than on
general obligation bonds, other factors constant (Kessel, 1971).
Third, spread increases as bond rating decreases for both revenue
and general obligation bonds. Fourth, spread decreases as the num
ber of bidders increases. That is , the greater the competition
among underwriters to buy the bond the lower the spread and vice
versa. Moreover, several authors have found that increasing the
number of bidders can have a substantial ef fect on y ie ld . I f the
number of bidders increases from one to two, 10 basis points can be
saved. Increasing the number of bidders from two to four w i l l save
another 10 basis points (Kessel, 1971; Cagan, 1978; and Kidwell and
Koch, 1982).
State Policy Options
The information presented in the previous section is a useful
basis to develop policy options for both state and local govern
ments. In this section we w i l l analyze state options. Local op
tions are the subject of the next section. We w i l l analyze these
options with respect to the ir ef f ic iency and equity in either lower
ing the cost of credit to the issuing en t i ty and/or using existing
f a c i l i t i e s more e f f ic ie n t ly . In this section we w i l l analyze the
following state options: the use of general obligation and revenue
18
bonds to fund grants or loans to local governments, credit enhan
cements that include state guarantee of local debt, private bond
insurance, le t te rs of cred it , l ines of cred it , and the establ ish
ment of bond banks, planning and technical assistance, and c l a r i f i
cation of water r ights. F inally, we w i l l conclude this section with
a survey of current state a c t iv i t ie s in these areas.
Grant and Loan Programs. Many states use the revenue collected
from the i r bonds and general tax revenues to issue grants and loans
to local governments for water projects of various kinds. The
source, as well as the form, in which i t is given to local govern
ments affects both eff ic iency and equity. As discussed previously
the use of current tax revenues to finance water projects tends to
resu lt in inequit ies with respect to both current vs. future bene
f ic ia r ie s and current beneficiaries vs. current taxpayers. Many
water projects require substantial up-front capita l , but generate
benefits which accrue for many years after the project is completed.
To finance these projects from tax revenue on a pay-as-you-go basis
means that current taxpayers w i l l pay substantia l ly more re la t ive
to the benefits they receive than future taxpayers. This is equiva
lent to current taxpayers subsidizing future beneficiar ies.
The use of tax revenue to finance water projects also results
in subsidization of beneficiaries by current taxpayers who do not
benefit from the project or benefit only marginally. For example,
a f lood control project that benefits only a portion of the com
munity but yet is financed from taxes paid by a l l means that the
19
individuals that benefit from the project are being subsidized by
those that do not. Of course, i f th is project were financed from
special taxes that were paid only by the beneficiaries e.g., prop
erty taxes levied in an improvement d i s t r i c t , th is type of subsidi
zation would not occur-.
The use of tax revenue to finance projects which generate a
vendible output is not very e f f ic ie n t . Projects which generate
vendible outputs include water supply, sewer, i r r ig a t io n , hydro
e le c t r i c i t y , and navigation. These are projects where the primary
beneficiary of the project is the user. To finance these projects
from general tax revenues means that nonusers subsidize users.
Besides being inequitable th is arrangement lowers the price of the
product to the user result ing in a use level which is in e f f ic ie n t .
That is, because the user pays less than the cost of providing the
service he uses more than i f he had to pay the f u l l cost. Put
another way, the cost of providing the service is greater than the
value of the benefit to the user. The use of user fees would m i t i
gate the inequit ies and inef f ic ienc ies associated with th is type of
financing but because they are usually imposed at the local level
they are discussed as a local option in the next section.
Bond financing of water projects tends to remove the inequi
t ies between current and future beneficiaries created when pay-as-
you-use financing is used. The way th is money is d istr ibuted, how
ever, affects ef f ic iency and equity. We w i l l consider three ways
in which a state can use the money derived from bond issues. These
20
include grants and loans to local governments and direct state con
t ro l of projects.
The popularity of state loans and grants to local governments
no doubt stems in part from the be l ie f that local governments would
not be able to afford expensive water projects, such as water supply
or waste treatment plants, i f they had to finance them from local
revenue sources. This may very well be true, but states must rea l
ize that there are al ternat ive ways to help lo ca l i t ie s fund these
projects and the use of grants and loans may result in provision of
unnecessarily expensive projects. Generally speaking, grant pro
grams result in greater ineff ic iency than loan programs. The rea
son is that grants involve lower costs to the local government than
loans and, consequently, tend to lead to larger scale projects than
i f the lo c a l i t y had to pay fo r a part or a l l of the financing costs
(Hyman, 1981). Financing local water projects with state grants
also tends to increase interest rate on bonds issued by local govern
ments. The reason is that the local government becomes more depen
dent for i t s f inancial health on the actions and financial health
of the state. This increases the perceived r isk of default to the
bond buyers and generally results in higher yields (Smith, 1984).
An idea which has become increasingly popular in recent years
is the use of revolving funds to issue loans or grants to local
governments. Revolving funds can be financed i n i t i a l l y from a va
r ie ty of sources, including bonds and general tax revenues. But no
matter what the ir source of funding they do not tend to have the ad-
21
verse effects on bond yields that grants financed from other sources
have. The reason for th is difference is that revolving funds, once
capital ized, tend to be insulated from p o l i t i c a l pressure. Thus,
grants financed in th is way are less subject to p o l i t i c a l whims.
The position of the lo ca l i ty to repay its- debt is not imperiled and
the r isk of default is not changed.
However, even though the use of revolving funds may not s ign i
f ica n t ly affect a lo c a l i t y 's cost of cred it , to the extent i t f i
nances grants and low in terest loans i t can result in in e f f ic ie n t
and inequitably financed projects as discussed previously. Indeed,
evidence suggests that state grants and loans to local governments
tend to result in increased spending fo r water projects unless these
projects are financed with well designed user fees.
Another possible, but l i t t l e used, option is for the state to
undertake d i rec t ly water projects. Cali fornia used bonds to finance
a water conveyance system which now covers much of the state. One
issue which has been very controversial is the pro ject 's pricing
policy which employs average h is to r ica l cost instead of incremental
replacement cost pr ic ing. In an era of r is ing prices this means
that prices are too low, i . e . , the price users pay for water is
less than the cost of providing i t . This results in subsidization
of new water development and, consequently, an increase in the
y ie ld necessary to obtain a given amount of cred it . Put another
way, i t increases the financing costs of water projects (Hirsch-
l e i f e r , Dehaven, and Milliman, 1963).
22
Cali forn ia 's pricing policy has been the subject of much debate
and states that contemplate similar projects should learn from i t .
A pr ic ing policy which subsidizes one group at the expense of an
other is l i k e ly to put the state in a serious, and p o l i t i c a l l y d i v i
sive, debate about who should gain and who should lose from such a
pricing policy. An al ternative pricing scheme which more nearly
correlates benefits with the costs to each user is less l i k e ly to
be subject to such intense debate.
Credit Enhancements. One way the state can help loca l i t ies
d i rec t ly reduce the ir costs of cred it is through various types of
cred it enhancements. The credit enhancements we w i l l discuss are
state guarantee of local debt, purchase of private bond insurance,
le t te r s and l ines of cred it , and bond banks. Each of these are
aimed at lowering credit costs but not a l l do so equally and some
merely red is tr ibu te , rather than reduce, costs.
A state may choose to use i t s powers to guarantee the debt of
i t s lo ca l i t ie s . In so doing, the credit rating of the state is gen
era l ly substituted for that of the lo ca l i t y . As indicated ear l ie r ,
higher bond ratings can mean a substantial saving in the cost of
credit to the municipal ity. Local it ies whose bond ratings are as
high or higher than the state 's rating would not benefit from this
arrangement. Moreover, although guarantees would improve the credit
worthiness of some local issues i t would do so at the r isk of a
deter iorat ion in the state's rat ing (Peterson and Hough, 1983).
The state may also choose to use i t s resources to purchase
23
bond insurance for local issues. Bond insurance is purchased from
a company such as the Municipal Bond Insurance Association (MBIA)
or the American Municipal Bond Assurance Company (AMBAC) for a one
time fee that can range from 1 to 2 percent of the amount guaranteed
depending on the creditworthiness of the issuer. The main advan
tage of a bond guarantee is that, unlike a state guarantee of debt
which w i l l change the bond rat ing of the lo ca l i t y to that of the
state, bond insurance w i l l resu lt in an automatic AAA rat ing from
Standard and Poors. Moody's does not upgrade the ir rating to
re f lec t bond insurance.
The state may also consider as an option paying the fees of
establishing a le t te r of cred it for the bond issues of i t s lo c a l i
t ies . Letters of credit (LOC) pledge a bank's credit to pay debt
service on an issuer's debt in return for an annual fee of l/2 to 1
percent. In e f fect , the lo c a l i t y would purchase the bond rat ing of
the bank which is usually rated at least AA. This arrangement
doesn't make sense for every lo ca l i t y . In part icu lar, i t is not
worthwhile i f the annual fee exceeds the savings from lower yie lds.
Although a lo c a l i t y that must pay for a LOC is unlikely to enter
into th is arrangement i f i t s costs to obtain the LOC exceeds the
savings in debt service, a lo c a l i t y that is financed from state
funds is more l i k e ly to obtain a LOC even though i t is uneconomic
to do so. States which agree to purchase LOCs for i t s local govern
ments must therefore put some safeguards to insure that costs do
not exceed savings.
24
A l ine of cred it is a more restr ic ted type of support than a
le t te r of c red i t . Whereas LOCs enhance an issuer's cred it qual i ty
and l i q u id i t y , a l ine of cred it merely enhances i t s l i q u id i t y . The
basic difference stems from the fact that under a LOC the bank makes
an irrevocable pledge to issue cred it to the bond issuer should he
need i t to pay o f f the bond. I f i t becomes necessary to cal l upon
the LOC because of in su f f ic ie n t cash flow a loan is created by the
bank. This loan is generally made at a percent of prime but at a
rate which generally exceeds the tax exempt rate. A l ine of cre
d i t , on the other hand, is not irrevocable. Banks do not have to
extend cred it i f they deem the loan unacceptably r isky. Although
l ines of c red i t are less expensive than LOC they don't enhance the
cred it rat ing (Peterson and. Hough, 1983).
Some states have established bond banks to help lo c a l i t ie s re
duce the ir cost of borrowing. In e f fec t , these banks pool r isks and
underwriting costs, which theore t ica l ly is supposed to reduce bor
rowing costs. However, these banks have not worked th is way in prac
t ice . At best, they appear to red is t r ibu te borrowing costs among
munic ipal it ies. To understand why, we must understand the basic
workings of a bond bank.
A bond bank f loa ts bonds and, in turn, buys bonds of qual ify ing
local governments. The security fo r the local bonds is pooled as
security fo r the bank's bond issue. Usually, part of the sale of
the bank's bond is used to establish a reserve fund and the remain
der is distr ibuted to the part ic ipat ing lo c a l i t ie s .
25
Bond banks d ivers i fy r isks by pooling the bonds issued by local
governments into a single p o r t fo l io . But th is appears to be a re la
t i v e ly expensive way to achieve r isk d ive rs i f ica t ion (Kidwell and
Rogoski, 1983). The reason bond banks do not d ive rs i ty in an e f f i
c ient manner is that they require a l l par t ic ipat ing governments to
receive the same interest rate even though they may face d i f fe ren t
capital costs. In other words, they do not allow the market to
price the bonds issued by lo c a l i t ie s separately. This results in
the cross-subsidization of lo c a l i t ie s with re la t iv e ly low qual i ty
bonds by those with re la t iv e ly high qua l i ty bonds. I t has been
estimated that bond banks reduce the borrowing costs of only low
qua l i ty borrowers (BAA) and increase i t for higher qua l i ty par
t ic ipants (Cole and M i l la r , 1982).
Planning and Technical Assistance. Many local governments are
not equipped to undertake the necessary steps to e f f i c ie n t l y plan
and implement f inancing strategies to realize e f f ic ie n t and equit
able funding of i t s water projects. This is an area where the state
can provide invaluable assistance in helping the lo c a l i t y evaluate
the economic and f inancial f e a s ib i l i t y of planned projects in addi
t ion to helping i t implement the plan. States current ly engage in
technical assistance and supervision programs designed to f a c i l i
tate the issuance of bonds, to encourage responsible debt manage
ment, and to improve c red i t rat ings. In addit ion, states can aid
local governments that plan to " p r i v i t i z e " water projects, that is ,
they plan to transfer ownership or management to the private sec-
26
tor. This change is su f f ic ien t ly complex at the local level to
demand some assistance from the state. Whether a loca l i ty should
pursue this as a means to provide low cost water f a c i l i t i e s is a
matter that w i l l be discussed in the next section.
Statuatory and Regulatory Reform. States can examine the ir
laws and regulations to see i f they promote low cost financing of
water projects. One important influence on the cost of credit is
the specif ication of water r ights within the state. I t is impor
tant in determining the financial capacity of the local government
to repay i ts outstanding debt obligations and, hence, is important
in determining i t s bond rat ing.
Water rights are not often considered important determinant of
f inancing costs but a secure and stable water supply, as defined by
current water law, is necessary for low cost financing (Lamb and
Rappaport, 1980). The material that follows discusses three current
issues that can influence water costs, i . e . , uncertainty of future
water r ights, de f in i t ion and t rans fe rab i l i ty of water r ights , and
voluntary water transfers. I t re l ies heavily on the work of Smith
(1984).
Many water projects have expected l i fetimes of several decades,
but uncertainty about who has the r igh t to use the water can adver
sely affect financing costs that re f le c t the increased f inancial
r isks borne by the bond holders. An example of th is uncertainty is
the claim by Native Americans that the ir water use takes precedence
over most others according to a 1908 Supreme Court case. Obviously
27
the uncertainty jeopardizes future water supply and with i t , the
capab i l i ty of state and local governments to meet the ir f inancial
obligations on projects involving th is disputed water.
Two other aspects of water r ights which are l i k e ly to reduce
the cost of f inancing are the t ra n s fe ra b i l i ty of water r ights and
defining water r ights in terms of consumptive use, rather than
diversion. From an economic standpoint, permitt ing voluntary water
transfers is l i k e ly to f a c i l i t a t e a more e f f ic ie n t al location of
water resources. I f transfers are voluntary they w i l l occur only
when the value of the water to the prospective se l le r is less than
the value of the water to the prospective buyer. Because water
would be transferred from lower-valued to higher-valued uses, th is
transfer w i l l resu l t in increases in net benefits of the water pro
je c t .
F le x i b i l i t y to transfer water helps reduce financing costs in
two ways. F i rs t , i t helps to mit igate the f inancial r isk from
uncertainty. Like most other projections, the projections of water
use over a long period of time are subject to error. For water pro
jects th is means that actual demand may not be equal to projected
demand, i . e . , the lo c a l i t y may f ind that i t either has too much or
too l i t t l e water to sa t is fy i t s demands. I f water transfers are
permitted, however, th is is less l i k e ly to happen because those
ju r isd ic t ion s with less demand than anticipated can sel l to those
with more demand.
Water transfers also improve the economic health of an area by
28
reducing the scale of water projects. They permit smaller scale
water projects to sa t is fy the demands of prospective users by more
e f f i c ie n t l y allocat ing water among the users (DeHaven, 1963).
A serious concern about water transfers, and one that may im
pact on the communities a b i l i t y to repay i t s debt, is that trade
between two water users may adversely affect a th i rd party that re
l ies on return f low. I f water transfers were permitted, and th ird
parties were protected, f inancial r isk of water investment would be
lessened because lo c a l i t ie s would be assured that i t s water r ights
would not be diminished.
However, water law is not consistent in protecting return flows
in a way that promotes economic e f f ic iency (Meyers and Posner, 1971)
I t generally places respons ib i l i ty on "upstream" users to maintain
current water use i f a l te r ing that use would reduce the water sup
ply of another user. But th is approach does not permit the gains
from water transfer to be weighed against the gains from protecting
the interests of th i rd part ies.
Defining water r ights in terms of consumptive use rather than
diversion a l levia tes th is problem (Gisser and Johnson, 1981). The
following example is extracted from Smith (1984). Suppose a small
munic ipal ity diverts 1000 gallons per day from a r ive r , 50 percent
of which returns and becomes a 500 gallon water supply for an agr i
cultural d i s t r i c t . The municipali ty wishes to transfer 200 gallons
a day to a new energy development with no return f low. I f the trans
fe r occurred, the agr icu ltura l d i s t r i c t downstream would suffer a
29
loss of 100 gallons a day (200 gallons used by the energy develop
ment returns 100 gallons, while 200 gallons used by the energy de
velopment returns nothing). In this case, no portion of the munici
p a l i t y 's diverted 1000 gallons per day could be resold without jeop
ardizing the rights of downstream users.*
However, suppose that the munic ipal ity 's rights were redefined
in terms of consumptive use. The municipality would claim rights
to consumptive use of 500 gallons per day. Now the water transac
tions involves the municipality transferr ing 100 gallons of con
sumptive use to the energy development - in place of the original
200 gallons of diversion, which represented a sacr i f ice of 100
gallons of consumptive use.
To protect the agricultural d i s t r i c t ' s water r ights, the muni
c ip a l i t y must reduce i t s water diversion by 100 gallons per day.
The 100 gallons not diverted after the water transfer protects the
agricultural d i s t r i c t ' s 500 gallon da i ly water supply. The dis
t r i c t would receive 400 gallons from return flows from the 800
gallons the municipal ity s t i l l diverts for sat isfying i ts remaining
r ights to a consumptive use of 400 gallons per day. The d i s t r i c t
receives i t s remaining 100 gallons from the munic ipal ity 's smaller
diversions from the stream.
Water transfers become more expensive for the energy develop
ment project. Because i t w i l l have to purchase 200 gallons of con
sumptive use from the municipal ity i f water rights are defined ac
cording to consumptive use. But th is means that the transfer w i l l
30
occur only i f the value of water to the energy development project
exceeds the value of the sacrif iced water to the municipal ity and
the cost of protecting the water rights of the agricultural d is
t r i c t . Under th is de f in i t ion of water r ights th ird party interests
are protected but not at the expense of potential beneficial gains
of water t ransfer.
Current State A c t i v i t ies. Previous material in th is section
discussed in general terms the options states face to reduce f i
nancing costs of water projects. We w i l l now discuss what options
states have exercised. Information was gathered from various pub
l i c documents and a mail questionnaire.
The tables which fol low show state grant and loan programs,
the source of government financing for a l l water projects, and the
extent of planning and technical assistance to local governments.
A close examination of these exhibits reveals that states pursue a
wide variety of programs in f inancing water projects. I t is not
the purpose of th is report to evaluate the program of any state but
rather to enumerate and evaluate the various options that states
can pursue in financing water projects.
In summary, states can pursue a variety of options to finance
water projects. These options include grants and loans, credit
enhancements, planning and technical assistance, and reform of sta
tutes defining water r ights . Of these options, the most l i k e ly to
reduce the cost of credit include credit enhancements, planning and
technical assistance, and reform of statutes defining water r ights .
31
TABLE 3
STATE AID TO LOCAL GOVERNMENTS FOR WATER DEVELOPMENT*
Sources of Funds fo r Grants/Loans
StateGeneral
Revenuesg . o .Bonds
RevenueBonds
BondBank
LoanOther** Guarantees
Alabama X X X XAlaska X X X X XArizona XArkansas X X XC a lifo rn ia XColorado X X XConnecticut X X XDelawareF lorida X XGeorgia X X X XHawaiiIdaho X X XI l l in o is XIndiana XIowaKansas XKentuckyLouisiana X X XMaine X X X XMaryland X XMassachuetts X XMichigan X XMinnesota X XM ississippiMissouri XMontana X XNebraska X XNevadaNew Hampshire X X XNew Jersey X XNew Mexico X XNew York XNorth Carolina X XNorth Dakota X XOhio X X X XOklahoma X X
32
TABLE 3 (Cont.)
Sources of Funds fo r Grants/LoansGeneral
RevenuesG. 0.Bonds
RevenueBonds
BondBank
LoanOther** GuaranteesState
Oregon XPennsylvania Rhode Island X
XX
South Carolina South Dakota Tennessee
XX
X
Texas X X XUtah X X XVermont X X XV irg in ia XWashington West V irg in ia X
X X
Wisconsin Wyoming
X XX
* This information may be incomplete becuase not a ll states responded to questionnaire.
**Includes special fees and taxes, user charges, and revolving fund.
Sources: U.S. Army Corps of Engineers (1984) and questionnaire.
33
TABLE 4
STATE CREDIT ASSISTANCE ACTIVITIES*
AL AK AZ AR CA CO CT DE FL GA HI ID IL IN IA KS KY LA ME MD MA MI MN MS MO MT NE
State Supervises C o lle c t andor C o llects Data Disseminate Data X X X X X X X X X X Xon Local Govern- M aintain Data F ile X X X X X X X X X X Xment Debt Issues Prescribe O f f ic ia l
Statement Contents X X X X XReview Local
Bond Issue X X X X X X X X XApprove Local
Bond Issue X X X XHelp Market Local
State Provides Technical A ss is tance on Local Debt Management
Bond Issue
Help WithO f f ic ia l Statement
Provide Data to Issuers & Others
Help Evaluate Bids Issue B u lle t in s , Pamphlets, Manuals
Conduct Seminars or Conferences
X
X
X
X
XX
X
X X
X
X
X
X
XX
X
X
XX
X
X
XX
X
X
X
X
X X
X
X
X
X
X
X
XX
X
X
TABLE 4 (C ont.)
NV NH NJ NM NY NC ND OH OK OR PA RI SC SO TN TX UT VT VA WA UV WI WY Tota ls
State Supervises C o lle c t andor C o llec ts Data Disseminate Data X X X X X X X X X X X X X 24on Local Govern- M aintain Data F ile X X X X X X X X X X X 22ment Debt Issues Prescribe O f f ic ia l
Statement Contents Review Local
X X X X X X X X X 14
Bond Issue X X X X X X X X X X 19Approve Local
Bond Issue Help Market Local
X X X X X 9
Bond Issue X X X X X 9
State Provides Help WithTechnical A ss is t- O f f ic ia l Statement X X X X X X X X 15ance on Local Provide Data toDebt Management Issuers & Others X X X X X X X X X X 23
Help Evaluate Bids Issue B u lle t in s ,
X X X 8
Pamphlets, Manuals Conduct Seminars or
X X X X X X X 12
Conferences X X X X X X X 12
*This in form ation may be incomplete because not a l l s ta tes responded to questionnare.
Source: U.S. Army Corps o f Engineers (1984) and questionna ire .
Grants and loans, although very popular, are l i k e ly to increase the
cost of financing and serve to red istr ibute costs among local govern
ments pa r t icu la r ly i f they are financed with taxes. This is also
true of state supported bond banks which are used to finance local
water projects.
Local Policy Opt ions
Most water projects are undertaken at the local level and in
th is section we analyze options that local governments might con
sider in funding these projects. In doing so we w i l l address ques
tions of both the economic and f inancial f e a s ib i l i t y of funding
part icular projects. When the federal government played a more
active role, i t assumed the responsib i l i ty of determining the eco
nomic fe a s ib i l i t y of"a project, while state and local governments
were primarily concerned with i t s f inancial f e a s ib i l i t y . With the
decline of federal support and the corresponding increase in state
and local part ic ipat ion comes new respons ib i l i t ies . In part icu lar,
state and local governments must now be concerned with the f inan
cia l and economic f e a s ib i l i t y of these projects. The suggested
options that fol low w i l l address both of these questions. Options
that w i l l be considered include the use of bonds and creative f i
nancing, use of taxes, user fees, leasing, contracts, and financial
planning. Not a l l options address both of these concerns and thus
they should be viewed as parts of a plan to be determined by in d i
vidual lo ca l i t ies depending upon the ir part icular circumstances and
needs.
36
Bond Financing. Local governments can issue general obliga
tion and revenue bonds just as the state can. And the same general
comments about the ir effects apply also at the local level . That
is, i f these bonds are financed with taxes they tend to be ine f
f ic ie n t and inequitable. They are in e f f ic ie n t because they tend to
encourage the use of more resources than are necessary, i . e . , they
result in projects where the cost of providing the service exceeds
the benefits. They are inequitable because the beneficiaries of
the project pay less than i t s value to them while those who do not
benefit pay more. The use of user fees to finance these bonds
tends to lead to more eff ic iency and equity than the use of taxes.
We w i l l elaborate on th is point la te r in th is section when we
discuss the appropriate use of these fees and the ir l i k e ly effects.
In recent years there has been increased interest and discus
sion of financing techniques that have come to be known as "creative
f inancing". Generally, these techniques involve varying the struc
ture of ordinary f ixed payment general obligation and revenue serial
bonds in order to make bonds more at t ract ive to investors during
periods of r is ing and high interest rates. We w i l l discuss the f o l
lowing types of creative financing bonds: tender option, or iginal
issue discount, zero-coupon, stepped-coupon, and floating-coupon.
Ordinari ly , bonds fo r water projects are issued at a f ixed
interest rate for a long period of time, such as twenty to t h i r t y
years. In periods of high in terest rates, however, an issuer can
usually lower f inancing costs and make the bond more desirable to
37
potential buyers by a l ter ing the payment schedule. Periods of high
in terest rates are usually accompanied by an upward sloping y ie ld
curve. This means that short term interest rates are lower than
long term rates. Issuers can thus save financing costs i f they are
able to sell a series of short term securit ies rather than one long
term bond. Some lo c a l i t ie s have e f fec t ive ly done jus t th is by
se l l ing variable or f loa t ing rate securit ies. An issuer of variable
rate securit ies absorbs the investor 's market r isk by adjusting the
interest rate at regular in tervals to keep the rate in l ine with
other tax-exempts of s imi lar short-term maturity. The stated
maturity of variable rate bonds is the same as that of the f ixed
rate but the rate is adjusted according to market conditions. This
type of bond is called the f loating-coupon bond.
Another type of variable rate bond is called the stepped-
coupon bond. I t is s im i lar to a floating-coupon bond in that the
in terest rate changes as the bond matures. However, the interest
rate does not change in response to a change in market conditions.
Rather, these bonds have specified interest rates that increase
from the f i r s t year to the las t . Thus, coupon payments r ise as the
bond matures. This type of bond may be a t t ract ive to issuers whose
cash flow is expected to increase as the project develops. Many
water projects involve substantial up-front construction costs with
l i t t l e or no revenue generated from the project un t i l construction
is completed which may be several years after the i n i t i a l start-up.
Original issue discount (OID) bonds are s imi lar to conven-
38
t ional bonds except they are sold o r ig ina l ly at a discount below
par value and with reduced coupon payments. This type of bond is
also suitable for most type of investments in water projects because
i t allows both principal and interest payments to be structured
over time to re f lec t the cash flow from the project. A specific
type of OID is the zero-coupon bond. There are no coupon payments,
and the market price of the bond is f u l l y discounted to re f lec t the
impl ic i t interest rate.
Tender option bonds allow the investor to redeem the bonds
prior to maturity. The option may be open ended or available only
at specified dates. Although this bond may be easy to sell because
i t protects the investor from increasing interest rates, i t is not
as suitable for financing most water projects as are the other op
tions already mentioned. Moreover, the option feature may force
the issuer to obtain backup credit , making the bond more d i f f i c u l t
to remarket (Mugler, 1984).
Creative financing techniques discussed above are al l meant to
make local debt more marketable by transferring market r isk (that
is, the risk that interest rates w i l l increase and bond prices f a l l )
from the investors to the issuer. Although they tend to reduce
financing costs, par t icu lar ly up front in the early years of a pro
ject that may have l i t t l e or no cash flow, they do so at the expense
of increased r isk . They are not a panacea, nor are they substitute
for sound planning that emphasizes the basic economic and financial
fe a s ib i l i t y of a project.
39
The creative financing techniques reviewed here can be com
bined in a number of d i f fe ren t ways to achieve the part icular f i
nancing objectives of the issuer. No one, and perhaps none, of
these techniques are suitable for a l l lo ca l i t ies and a l l types of
projects. Local it ies are advised to seek professional counsel to
see how features of bonds may be structured to increase financing
f l e x i b i l i t y and meet the goals and objectives of planned projects.
Tax Financ ing. Local it ies generally re ly on three sources of
tax revenue, i . e . , property, sales, and income. Property tax is by
far the most important source of revenue but i t is diminishing in
importance. Whatever the source of local tax revenue, financing
water projects with taxes, even designated or dedicated taxes, tends
to be in e f f ic ie n t and inequitable. Further, i t does not strengthen
the economic base of the community and, therefore, i t does not
strengthen the cred it rat ing on which borrowing costs are deter
mined.
I t should be obvious that the use of tax revenue to pay for
water projects that have a long expected l i fe t im e is costly, ine f
f i c ie n t , and inequitable. I t should also be obvious that th is type
of f inancing to repay debt is also in e f f ic ie n t and inequitable. The
reasons were discussed thoroughly in the previous section. However,
i t is sometimes argued that taxation of a designated group of bene
f i c ia r ie s of a project is not subject to these shortcomings. For
example, suppose a special service d i s t r i c t was formed that pur
chased bonds to extend municipal water supply to i t and levied a
40
property tax only on those individuals in the special d i s t r i c t to
pay o f f the debt. Is this not equitable? I t is in the sense that
only the users of the water are paying for i t . However, th is is
true only in a general sense. With taxes of this type, individual
users do not pay in proportion to the water they use. Some w i l l
pay more for the ir water and some w i l l be less. In other words,
some individuals w i l l gain with this tax arrangement and others w i l l
lose. Besides being inequitable, i t is also in e f f ic ie n t in the
sense that the use of water is divorced from a payment for i t s use.
That is , since a household pays the same tax no matter how much
water i t uses i t w i l l probably use more water than i f i t paid ac
cording to how much water i t used. These problems can be mitigated
with a well designed set of user fees. This is the topic to which
we now turn.
User Fees. Properly designed user fees are both an e f f ic ie n t
and equitable way to finance water projects for which there is a
vendible output. They are e f f ic ie n t because they require users to
evaluate the benefits with the costs; therefore, they are not l i k e ly
to lead to situations where the cost of providing the service ex
ceeds the gain. They are equitable because those who enjoy the
benefits from the project pay for i t ; those who don't receive bene
f i t s don't pay for the project.
User fees are a way of increasing the e f f ic ie n t use of existing
f a c i l i t i e s . There is a great deal of evidence that suggests that
individuals use of water is influenced by i ts price, i . e . , as price
41
increases quantity demanded decreases. There is also a great deal
of evidence that suggests that prices charged for the outputs of
water projects are too low re la t ive to the costs of providing the
output. This implies output is being subsidized from another source
such as taxes, and that the cost of providing the output exceeds
the value of the output to the users. Raising the price of water
project output w i l l reduce demand and result in more e f f ic ie n t
f a c i l i t y use. Indeed, th is action may obviate the necessity of ex
panding or building new f a c i l i t i e s .
The use of user fees to finance the repayment of debt may make
bonds more at t ract ive to buyers for several reasons. F i rs t , the
project is l i k e ly to be viewed as more e f f ic ie n t than i f the bonds
were financed from tax revenues. Second, user fees represent reve
nue dedicated to the payment of debt obligations with no competing
claims for the ir use. Taxes, on the other hand, are used to finance
many d i f fe ren t programs and have many competing claims. Conse
quently, whether they w i l l be used to repay debt presents more un
certa in ty to the investor than i f user fees are used.
Despite the advantages of user fees, they are viewed by some
as inappropriate to finance water projects. They are often viewed
as inequitable in the sense that some users cannot afford to pay
for a service at f u l l price, but yet they are ent i t led to i t . This
is obviously a d i f fe ren t de f in i t ion of equity than we have been
using throughout th is monograph. However, i t is an important con
sideration when designing user fees but a d i f f i c u l t argument to
42
deal with because i t involves a subjective evaluation of what in d i
viduals are ent i t led to by r igh t and what price constitutes an
"unfair" price. Whatever our individual notions of " f a i r price"
are, we must recognize that sett ing prices below costs means that
some individuals are subsidizing others, either through taxes or
payments of higher fees. Thus, to argue that user fees are ine
quitable in the sense defined at the beginning of th is paragraph is
to argue that some individuals should pay at least part of the cost
of providing the service to other individuals.
Another argument against the use of users fees is a more prac
t ica l one. That is , they are not appropriate for water projects
that generate co l lec t ive ly consumed outputs, such as recreation and
f isher ies . In these cases i t is impossible or p roh ib i t ive ly expen
sive to exclude potential users from enjoying the benefits of the
projects. User fee f inancing would be inappropriate in these cases.
However, many water projects do generate output which can be sold
on a user fee basis. These would include water supply, sewerage,
hydroe lectr ic i ty , navigation, and i r r ig a t io n .
I t is one thing to argue the appropriateness of using user fees,
i t is quite another to determine the appropriate user fee. This is
a task to which we now turn, a lbe it in a general way.
Perhaps the most perplexing problem in determining the appro
pr iate user fee is the choice of cost measure that should be includ
ed in price. This problem actual ly has two dimensions to i t , one
economic and the other accounting. Dealing with the economic dimen-
43
sion f i r s t , we can think of project costs as ei ther f ixed or va r i
able. Fixed costs are those that do not vary with output, while
variable costs do. The change in variable costs per unit change in
output is known as marginal cost. From an economic standpoint the
price should be based on marginal cost since i t re f lec ts the value
of the resources that are being used up to provide the output.
Fixed costs, such as those to construct a new water f i l t r a t i o n
plant, are sunk costs that are the same no matter how much water
passes through the plant. Once the plant is b u i l t they are i r r e le
vant in determining the cost of the resources that are used to
f i l t e r a gallon of water. Consequently, they should not be con
sidered when setting fees based on use. User fees should re f lec t
the cost of providing an extra unit of output, that is, they should
re f le c t marginal cost.
Although the benefits of using marginal cost pr ic ing for water
outputs are well known, implementation of such a scheme is often
d i f f i c u l t . The reason is that many water projects are characterized
by large economies of scale, i . e . , declining average costs over a
large range of output. This means that average costs are less than
marginal costs. I f marginal cost pricing were to be used in th is
case, i t would not generate su f f ic ien t revenue to cover a l l costs,
including fixed. This s ituat ion would impair the a b i l i t y of the
lo c a l i t y to repay i ts loans and would not be looked on favorably by
potential investors. The question arises as to whether there is a
way to cover a l l costs associated with the project but at the same
44
time retain the advantages of marginal cost pr ic ing.
Fortunately, user fees can be designed in such a manner, using
a two-part t a r i f f . Consider a water supply project. The f i r s t part
of the t a r i f f would be a f ixed charge that re f lec ts the f ixed costs
associated with project output. I t could be considered an access
fee that would not vary from month to month even though use of pro
jec t output might. The second part of the t a r i f f re f lec ts the
marginal costs of providing project output. This charge would vary
from month to month depending on use. A two-part t a r i f f would en
able the u t i l i t y to cover production costs but at the same use mar
ginal cost as the basis for determining price.
In pract ice, i t is often d i f f i c u l t to calculate marginal cost
fo r public sector enterprises, but there is a growing l i te ra tu re
that indicates the problems are manageable and that a solution is
possible (Boland, 1984). Because of the d i f f i c u l t y is calculating
marginal cost and for other reasons, many u t i l i t i e s set rates on
the basis of average costs. Moreover, they usually use multiblock
t a r i f f s that decline with water use. These rate-making schemes are
in e f f ic ie n t not only because they f a i l to use marginal cost pricing
but also because they introduce price discrimination among consumers.
There is empirical work that indicates most u t i l i t i e s do not set
rates that re f le c t relevant marginal costs and, hence, promote in
e f f ic ie n t use of water (Boland, 1984).
The economic problem in sett ing appropriate user fees is not
easi ly resolved. Perhaps more easily dealt with is the accounting
45
problem referred to previously. The problem involves the question
of whether h istor ica l or replacement cost should be used as the basis
for determining costs. Historical cost refers to cost at the time
the project was b u i l t , while replacement cost refers to the cost of
the project in current dollars. Obviously these cost concepts are
identical i f prices do not change. In periods of r is ing prices,
however, prices based on h is tor ica l cost w i l l understate the value
of the resources being used to supply the project output. I f the
lo ca l i t y used histor ica l cost in sett ing i ts fees i t would not gen
erate enough funds to maintain i t s current system. The deter iora
tion in project qual i ty is l i k e ly to adversely affect how investors
view i t s debt and could tr igger a red f lag in the municipal bond
market. Therefore, replacement costs should be the basis on which
appropriate user fees are based.
Reference was made ear l ie r that an appropriate use of user
fees might be for i r r ig a t io n . This is not a well accepted notion
but i t is an important one to consider in such agricultural states
as Arkansas that have problems of water shortages and water qual ity
d i rec t ly at tr ibutab le to the agricultural use of water. I t is not
the intent of th is report to advocate user fees for agricultural
users, but only point out some of the considerations that should be
made in determining whether such fees would be benefic ia l.
Most of the water used for agricultural purposes in Arkansas
comes from the ground. The only cost associated with groundwater
extraction is the cost to pump water from the acquifer to the sur-
46
face. Pumping costs are function of the pumping rate and the depth
of the water table. Because the agricu ltura l user faces no other
costs in extraction of the groundwater he w i l l use i t to the point
where addit ional pumping costs are equal to the additional value of
the water fo r agr icu ltura l purposes. As the user extracts water he
lowers the water table and thus imposes additional costs on others
who are also extracting groundwater from that acquifer. But be
cause the cost of extraction to the user, i . e . , his pumping costs,
is less than the tota l cost of extraction, i . e . , his pumping costs
plus those of others due to a lower water table, he uses more than
the economically e f f ic ie n t amount of water. That is , the value of
the water to the user is less than the tota l cost to extract i t . As
a resu l t , many areas that re ly on groundwater face declining water
tables because water is being used at a faster rate than the acquifer
(or underground reservoir) is being recharged.
The problem of groundwater depletion can be l imited by impos
ing a tax on that re f lec ts the additional pumping cost a user im
poses on others. Such a tax would raise the cost of extraction to
a user and cu r ta i l his consumption, thus a l lev ia t ing the overdraft
problem. The tax should re f le c t three factors (Maddock and Haines,
1975; Wetzel, 1978). F i rs t , i t should include the ef fec t of water
depth on the pumping costs of a l l water users. Second, i t should
include the ef fect of net extractions on water depth. Net extrac
tions refer to the to ta l amount of groundwater extracted minus the
amount that returns to the source. I t is equivalent to consumptive
47
water use when we speak of surface water use. Third, i t should in
clude the effect of water use on net extractions.
There are many technical problems involved in designed e f f i
c ient pump taxes and these are discussed elsewhere (Maddock and
Haines, 1975; Wetzel, 1978). For purposes of th is report the main
point of th is discussion is that pump taxes are a way for local
governments to use existing water supplies more e f f i c ie n t ly . Prop
er ly designed, they may cur ta i l the development of expensive water
supply projects to a l lev ia te the depletion of groundwater. Ground-
water depletion may be a problem not so much of inadequate supply
to meet demand but more of excess demand re la t ive to supply. In
other words, the excess demand that results in groundwater deple
t ion is the result of water prices that are too low re la t ive to
supply. An e f f i c ie n t ly designed pump tax could a l lev iate this prob
lem.
The pump tax does have some disadvantages, notable of which is
the effect i t might have on property values. By charging landowners
for the use of water that they previously received " f ree," the state
e f fec t ive ly cu r ta i ls one of the r ights associated with the use of
that land. This tends to lessen the value of that land jus t as any
other re s t r ic t ive covenant would do. This is an important con
sideration but i t must be weighed against the economic benefits of
imposing a pump tax. Is the potential loss of land values worth
the additional economic benefits of a dependable water supply?
This is a d i f f i c u l t question to answer. Not many areas have adopt-
48
ed pump taxes but there is evidence that suggests that these taxes
have s ign i f ican t ly curtailed or eliminated the overdraft problem
and at the same time increased revenues (Lipson, 1978).
Leasing and Contracts. Due pr imarily to tax law changes v a r i
ous types of leasing arrangements have become a popular way for
local governments to provide services in recent years. There are
three general types of leasing arrangements, that is , true lease,
condit ional sale lease, and service contract (Mugler, 1984). In a
true lease the local government pays a private owner for the use of
the f a c i l i t y , but has no f inancial in terest in i t . In a conditional
sale lease, or lease-purchase agreement, the local government leases
the f a c i l i t y from a private owner l ike in a true lease. At the end
of the lease, however, the f a c i l i t y reverts to the local government
fo r a nominal charge. In a service contract, which is sometimes
referred to as p r iv i t i z a t io n , a pr ivate f i rm se l ls services or out
puts to the local government. I t d i f fe rs from a true lease in that
the local government agency contracts with a pr ivate f irm for ser
vices or output. With a true lease the local government agency
leases f a c i l i t i e s from a private f irm and actually provides those
services. In ei ther case the cost to the local government could be
less than i f i t had financed the f a c i l i t i e s with i t s own general
obligation bonds. The reason is that under existing tax laws, p r i
vate f irms can increase the i r e f fec t ive rate of return by taking
advantage of tax benefits, such as depreciation, and certain tax
credits that are not available to public concerns. Thus, i f tax
49
benefits are s u f f ic ie n t ly high, a private f irm could offer to sup
port a specif ic water project at a lower cost than the local govern
ment could i f i t b u i l t and operated the f a c i l i t y i t s e l f .
The tax law makes leasing an at t ract ive al ternative way for
local governments to finance water projects. But whether the law
w i l l continue to make these arrangements possible is questionable.
There has been discussion in Congress of introducing legis lat ion
that would e f fec t ive ly preclude the use of government leases as a
means of transferr ing tax benefits to private sector investors
(Peterson, 1984). This uncertainty reduces the attractiveness of
leasing and contracting arrangements. Nevertheless, should this
s i tuat ion s tab i l ize , there are good reasons for considering leasing
or contracting (Mugler, 1984). F i rs t , leasing and contracting usu
a l ly avoid res t r ic t ions or indebtedness, i . e . , they are an effec
t ive way of avoiding the l im ita t ions of debt cei l ings. Second,
private f inancing of public f a c i l i t i e s lowers the up-front cost of
the f a c i l i t y to the municipal ity since these are incurred by the
private f irm. For most water projects these costs can be substan
t i a l . Third, fo r projects with vendible outputs, leasing and con
tracts increase the revenue base of the municipal ity without requir
ing up-front capital and, consequently, may create a net increase
in debt capacity. Fourth, private firms may be able to construct
f a c i l i t i e s at less cost than public agencies because they are sub
jec t to fewer res tr ic t ions of design standards, wage rates, and con
tract ing procedures. Lastly, leasing and contracting may result in
50
lower costs not only because of the tax benefits mentioned previ
ously but also because a private f i rm may face lower costs of debt
than a public en t i ty . Research has shown that for comparably rated
bonds private investors face lower f inancing costs (M i l ler , 1977;
Trezcinka, 1982).
Financial Planning. The decrease in federal involvement in
water projects and corresponding increase in nonfederal involvement
heightens the importance of sound f inancial planning and analysis.
A local government does not have access to the wealth of resources
that the federal government does and, therefore, must be more ju d i
cious in how i t decides to allocate them. This means i t must ana
lyze potential projects not only on the basis of the ir economic
f e a s ib i l i t y but also on the basis of the ir f inancial f e a s ib i l i t y .
The former analysis pr imarily includes matters concerning e f f i
ciency, while the la t te r analysis pr imari ly includes matters of
cost recovery, capital structure, and cash flow. Indeed, of al l
the aspects of f inancial analysis, cash flow is perhaps the most
important in the environment of greater nonfederal part ic ipat ion.
The reason is that nonfederal sponsors are smaller, have smaller
por t fo l ios of investment projects, and, therefore, cannot absorb
projects with long payback periods. In addition, many municipal i
t ies often finance projects through revenues that are closely re
lated to the project which increases the importance of early cash
returns to finance substantial up-front costs.
In general terms, f inancial planning involves answering two
51
questions. F i rs t , is the project "needed"? Second, i f so, what is
the least expensive method of finance? Answering the f i r s t question
involves an analysis of whether existing f a c i l i t i e s might be used
more e f f ic ie n t ly . That is, are there ways to reduce demand for
existing f a c i l i t i e s in an e f f ic ie n t manner. We have already talked
about the use of user fees to bring about such an adjustment. Other
methods that may be considered are the use of nonprice allocation
schemes to generate greater conservation, e.g., odd-even watering
days and water-saving devices. These are not l i k e ly to be as effec
t ive or as e f f ic ie n t as user fees but they might be appropriate for
short term situations. The use of nonprice allocation methods, how
ever, are not l i k e ly to affect long term financing capabil i t ies of
the local government.
The use of user fees and nonprice methods of demand management
are but two aspects of a broader strategy to defer capital expen
ditures for water projects. In asking whether a part icular project
is "needed," the local government might also consider additional
ways to "make due" with existing f a c i l i t i e s . These include improved
eff ic iencies in the operation and maintenance of existing f a c i l i
t ies and the use of load management techniques to reduce peak loads.
There are new, non-structural management techniques that appear to
well suited to increasing operating eff ic iencies, especially in
regional situations with complex supply systems and multiple ser
vice areas (Moreau and Whittington, 1984).
Another technique that could e ffec t ive ly defer capital expen-
52
ditures, and one that should be explored pr ior to embarking on plans
to finance expansion of existing f a c i l i t i e s , is load management.
Although this is used in the e lec t r ic power industry i t is rarely
discussed with respect to water projects. I t is not applicable to
a l l water projects, but i t is d e f in i te ly applicable to water supply
f a c i l i t i e s . The purpose of load management is to balance demands
on a system over time. There are certain times of the day and year
when the use of water strains the capacity of the system to provide
i t , while at other times unused capacity is very high. In the elec
t r i c power industry time of day and time of year pricing are used
sometimes to influence consumer demands so that they use less elec
t r i c i t y during peak periods. To build f a c i l i t i e s large enough to
accomodate peak demands would be in e f f ic ie n t because of the large
amounts of unused capacity that would exist in o f f peak times. The
analogy between e lec t r ic power demand and water demand is appro
pr ia te . Load management is a technique that is worth analyzing
before a lo c a l i t y embarks on an expensive expansion project. The
cost of such an analysis is small re la t ive to savings that can be
realized i f i t is made to work.
The second general aspect of f inancial planning is determining
the least expensive way to finance a project once the decision has
been made that i t is needed. We have already discussed the impor
tance of up-front f inancing, cash flow, and the various f inancing
al ternatives that a lo c a l i t y might consider. These w i l l not be
discussed again here. However, one other consideration that should
53
be made is whether the project can be divided into several smaller
projects so that the service might be provided in an orderly way
more in l ine with the development of demand for the project output.
Project sequencing, i f appropriate, reduces the need for up-front
cap ita l . I t may also improve the community's economic base in the
eyes of potential investors since project costs would be more in
l ine with project revenues.
There are a variety of options open to local governments to
fund water projects. The options considered in th is section were
evaluated on the basis of whether they could reduce the cost of
cred it to the municipal ity and/or result in increased eff ic iencies
in the use of existing f a c i l i t i e s , thus obviating the necessity for
new or expanded f a c i l i t i e s . Options most l i k e ly to achieve these
resu lt include the issuance of bonds financed with user fees, lease
arrangements, p r iv i t i z a t io n , and various aspects of sound f inancial
planning. The use of taxes, while appealing on the basis of reve
nue potentia l, are l i k e ly to increase the costs of financing water
projects and red is tr ibu te them to individuals who do not benefit or
benefit only marginally by the project. However, taxes are more
appropriate for projects characterized by col lect ive consumption
such as f isher ies, commercial navigation, and flood hazard reduc
t ion.
CONCLUSIONS
The state and local policy options discussed in the previous
sections of th is report are not a l l equally applicable to the s i tu-
54
ation in the state of Arkansas. Local governments face s ignif icant
legal constraints in the amount and type of debt they can issue even
though they have the resources to safely issue more (Ziegler et a l ,
1980). Moreover, the state is prohibited from issuing debt except
in a few instances. Even though debt is the preferred method to
finance water projects, constitut ional and statuatory l imitat ions
preclude s ignif icant use of th is form of finance on an ongoing
basis.
The state legis lature recently passed legis lat ion that permits
the Arkansas Soil and Water Commission to issue up to $100 mil l ion
in general obligation bonds with a l im i t of $15 mil l ion per year,
subject to leg is la t ive approval. The commission is considering
several ways of disbursing this money, including grants and loans.
This bond program is the largest single source of state money ava i l
able for water projects and w i l l l i k e ly be the focus of many local
ef for ts as money from the federal agencies, such as Farmers Home
Administration, HUD, and EPA, decline. But the l im i ts placed on
this fund are not l i k e ly to make i t a long term viable al ternative
to reduced federal part ic ipat ion in water resources development.
In conjunction with the use of monies from this fund, there
are other alternatives which the state and local governments might
consider. Among the more s igni f icant alternatives are the increased
use of user charges, including pump taxes, and c la r i f ica t io n of
water r ights. According to information gathered from individuals
throughout the state, charges for water and sewer services, espe-
55
d a i l y for older systems, are too low to cover replacement costs.
Even in newer systems, the rates are usually set to cover only debt
service, reserve fund, and depreciation. As discussed previously,
in an era of r is ing prices such rates are l i k e ly to be inadequate
to maintain, not to mention improve, the qual i ty of the existing
system. In Arkansas, user charges take on an added significance as
a source of revenue because of the l im itat ions on issuing debt.
Increased user charges for water projects, where feasible, not only
provide additional funding for the maintenance and improvement of
these projects but also may lessen the necessity for expended fa c i
l i t i e s by reducing demand.
The biggest drawback to increased user charges is that they
may dramatically increase rates for those least able to pay. This
is a s ign i f icant consideration, par t icu la r ly for a poor state such
as Arkansas. The increases in ef f ic iency and equity brought about
by higher user charges must be weighed against the hardships created
for low income individuals. To continue to charge low rates, how
ever, seems to be an inv i ta t ion to long term deterioration in water
projects throughout the state. Decreasing federal funds combined
with state and local debt l im itat ions leave few financing options
available. The state and local governments should explore a l te r
natives to existing rate structures while at the same time remaining
cognizant of the impact of these alternatives on low-income in d iv i
duals.
Another s igni f icant al ternative that might be explored is the
56
c la r i f i c a t io n of water r ights . This is a serious, p o l i t i c a l l y sen
s i t iv e , but important issue that confronts the people of Arkansas.
The present ins t i tu t iona l structure is inadequate to deal with con
f l i c t i n g claims over the use of water. The use of water in Arkansas
is based on the r ipar ian r ights doctrine, which basically l im i ts
the r ights of water to those who own land abutting a stream or lake.
This s ig n i f ican t ly l im i ts the a b i l i t y to deal with water use con
f l i c t s in an e f f ic ie n t and timely manner. Among i t s shortcomings,
th is doctrine severely res t r ic ts the transfer of water from areas
which have s ign i f ican t surpluses to those facing shortages, requires
case by case con f l ic t resolution, and leaves uncertain the publ ic 's
r igh t to water surpluses, instream uses, etc. In addition, as dis
cussed previously, c lear ly defined water r ights are necessary for
low cost financing of water projects because they reduce the f inan
cial r isks borne by bond holders by reducing uncertainty about who
has the r igh t to use water.
I t is not the purpose of th is report to propose how water
r ights should be defined in the state of Arkansas. Many in d iv i
duals have grappled with th is important issue over the past f ive
years and no concensus has emerged. Rather, the purpose is to
point out that c lear ly defined water r ights that allow voluntary
water transfers, pa r t icu la r ly i f they are defined in terms of con
sumptive use rather than diversion, tend to facil i t a t e less cost ly
water projects and more e f f ic ie n t al location of water resources.
Although the increased use of user charges and the c la r i f i c a -
57
t ion of water r ights are perhaps the two most s ignif icant alterna
tives the state and local governments might consider, they might
also consider other alternatives that would reduce the costs of
borrowing. These include increased technical and planning assis
tance, bond guarantees, bond insurance, and p r iv i t iza t io n . At pre
sent, planning and technical assistance is l imited and varies
widely among Planning and Development D is tr ic ts which are the p r i
mary source of such assistance. As discussed previously, technical
assistance tends to fa c i l i t a te the issuance of bonds, encourage
responsible debt management, and improve credit ratings. Planning
assistance, pa r t icu la r ly f inancial planning, helps enable lo c a l i
t ies to meet the ir obligations in a t imely and e f f ic ie n t manner.
In addition, loca l i t ies might consider the adaptation of load mana
gement techniques and the sequencing of capital improvement pro
jects as ways to reduce expenditures for water resource projects.
The state might also consider bond guarantees and bond insur
ance for local debt issues as ways of reducing costs. Although
they w i l l not always reduce borrowing costs, they are re la t ive ly
inexpensive ways to improve yields on municipal bonds.
Potentia l ly , p r iv i t iza t io n is an option that could reduce water
project costs. I t has been used successfully elsewhere but Arkan
sas should proceed cautiously here. P r iv i t iza t ion is f inanc ia l ly
at tract ive because of provisions included in previous tax laws.
There has been serious debate in Congress whether private companies
should receive the extent of tax advantages current ly available
58
under existing laws or whether these laws should be modified. There
is a great deal of uncertainty at the present time whether these tax
advantages w i l l continue and, consequently, whether p r iv i t iza t io n
w i l l be f inanc ia l ly feasible.
In summary, i t is the recommendation of th is report that, based
on the premise that debt finance is the most appropriate way to
finance long term water projects and that state and local govern
ments in Arkansas would prefer to avoid additional financing costs
completely or to reduce them, these governments should consider the
fol lowing alternatives as ways to either reduce the cost of debt
and/or result in more e f f ic ie n t use of existing f a c i l i t i e s : in
creased use of user charges, c la r i f ica t io n of water r ights, planning
and technical assistance, bond guarantees, bond insurance, other
cred it enhancements such as le t te rs and l ines of cred it , load mana
gement techniques, and sequencing of capital projects. Of a l l the
options investigated in th is report these seem the most promising
for Arkansas.
59
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